Radiation from accelerated impurities in a Bose–Einstein condensate

Suzuki, Jun–ichi

doi:10.1016/j.physleta.2011.02.020

Physics Letters A

2011

DOI: 10.1016/j.physleta.2011.02.020

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Radiation from accelerated impurities in a Bose–Einstein condensate

Jun–ichi Suzuki

Abstract: We investigate radiation spectra arising from accelerated point-like impurities in the homogeneous BoseEinstein condensate. A general formula for the radiation spectrum is obtained in the integral form as a function of given impurity trajectory within the Bogoliubov approximation. The Planckian spectrum is obtained for a special accelerated motion, which is shown to be unphysical. Non-Planckian spectrum is found in the case of a uniformly accelerated impurity. We compare our result with similar settings discus… Show more

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Cited by 4 publications

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Discriminating quantum field theories in non-inertial frames

Doukas¹,

Adesso²,

Pirandola³

et al. 2015

Class. Quantum Grav.

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Quantum channel discrimination is used to test quantum field theory in non-inertial frames. We search for optimal strategies which can best see the thermality of the Unruh effect. We find that the usual strategy of counting particles in the vacuum can be improved, thereby enhancing the discrimination. Coherent state probes, which are practical and feasible, give exponential improvement in the discrimination of the Unruh channel and come very close to optimal. In particular, we show that using a short pulse laser, the accelerations required to test the Unruh effect can be reduced by at least three orders of magnitude with the same statistical confidence as could be achieved in vacuum. These results are expected to be relevant to upcoming experimental tests of quantum field theory in curved spacetimes in analogue systems.

show abstract

Discriminating quantum field theories in non-inertial frames

Doukas¹,

Adesso²,

Pirandola³

et al. 2015

Class. Quantum Grav.

View full text Add to dashboard Cite

show abstract

Gravitational parameter estimation in a waveguide

et al. 2014

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We investigate the intrinsic uncertainty in the accuracy to which a static spacetime can be measured from scattering experiments. In particular, we focus on the Schwarzschild black hole and a spatially kinked metric that has some mathematical resemblance to an expanding universe. Under selected conditions we find that the scattering problem can be framed in terms of a lossy bosonic channel, which allows us to identify shot-noise scaling as the ultimate scaling-limit to the estimation of the spacetimes. Fock state probes with particle counting measurements attain this ultimate scaling limit and the scaling constants for each spacetime are computed and compared to the practical strategies of coherent state probes with heterodyne and homodyne measurements. A promising avenue to analyze the quantum-limit of the analogue spacetimes in optical waveguides is suggested.

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Unruh and Cherenkov Radiation from a Negative Frequency Perspective

et al. 2021

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Radiation from accelerated impurities in a Bose–Einstein condensate

Cited by 4 publications

References 44 publications

Discriminating quantum field theories in non-inertial frames

Discriminating quantum field theories in non-inertial frames

Gravitational parameter estimation in a waveguide

Unruh and Cherenkov Radiation from a Negative Frequency Perspective

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